Protein - Why it's Important for Endurance Athletes

By Steve Born

Endurance athletes need more than just carbohydrates

Endurance athletes tend to focus on carbohydrate intake and pay little, if any, attention to protein. As a result, protein deficiency appears often among endurance athletes, with its inevitable negative effects on performance and health. Serious endurance athletes do need considerable amounts of protein, far above the normal adult RDA, because maintenance, repair, and growth of lean muscle mass all depend on it, as well as optimum immune system function. Low dietary protein lengthens recovery time, causes muscle weakness, and suppresses the immune system. Chronic protein deficiency will cancel the beneficial effects of your workouts; instead, you will become susceptible to fatigue, lethargy, anemia, and possibly even more severe disorders. Athletes with over training syndrome usually have protein deficiency.

PROTEIN

Questions, concerns, & answers

In addition to the usual information we offer concerning all of our fuels and supplements, the issue of protein intake also requires dealing with some misperceptions. Endurance athletes have certain oftspoken beliefs about protein intake, and in this section we'll look at the three most commonly voiced.

I thought only bodybuilders needed high protein diets.

When you get down to it, however, we are body builders in some respects, building our bodies to do what we want them to. The truth is that endurance athletes and bodybuilders have similar protein requirements, but the way in which the body uses the protein differs. Bodybuilders need protein primarily to increase muscle tissue; endurance athletes need protein primarily to repair existing muscle tissue that is undergoing constant breakdown from daytoday training.

Eating a high protein diet will cause unwanted weight gain and muscle growth.

Actually, the type of training you engage in determines whether you bulk up or not. High volume endurance training does not produce muscle bulk, regardless of protein intake, whereas relatively low volumes of strength training will. Either way, the muscle tissue requires protein. Additionally, it is the volume of calories you consumebe it from carbohydrates, protein, or fatthat is the primary factor in weight gain. Youve simply got to have more calories going out (i.e. being burned) during exercise and other activities than you have coming in via the diet to avoid unwanted weight gain.

But I thought carbohydrates were the most important fuel for exercise,

While carbohydrates are indeed the body's preferred source of fuel, protein plays an important part in the energy and muscle preservation needs of endurance athletes. Protein is mainly known for its role in the repair, maintenance, and growth of body tissues, but it also has a role in energy supply. After about 90 minutes of exercise in well-trained athletes, muscle glycogen stores become nearly depleted, and the body will look for alternative fuel sources. Your own muscle tissue becomes a target for a process called gluconeogenesis, which is the synthesis of glucose from the fatty and amino acids of lean muscle tissue. The degree of soreness and stiffness after a long, intense workout is a good indicator of just how much muscle cannibalization you have incurred. Adding protein to your fuel mix provides amino acids and thus reduces tissue cannibalization.

Protein use during exercise

As discussed in the article Proper Caloric Intake During Endurance Exercise, it's important that the workout fuel contain a small amount of protein when exercise gets into the second hour and beyond. Research [Lemon, PWR Protein and Exercise Update 1987, Medicine and Science in Sports and Exercise. 1987;19 (Suppl): S 179S 190.] has shown that exercise burns up to 15% of the total amount of calories from protein by extracting particular amino acids from muscle tissues. If the endurance athlete does not provide this protein as part of the fuel mixture, more lean muscle tissue will be sacrificed through gluconeogenesis to provide fuel and preserve biochemical balance. Simply put, when you exercise beyond 23 hours, you need to provide protein from a dietary source or your body will borrow amino acids from your muscle tissue. The longer you exercise, the more muscle tissue is sacrificed. This creates performance problems both during exercise (due to increased levels of fatiguecausing ammonia) and during your postexercise recovery (due to excess lean muscle tissue damage).

Bottom line: During exercise that extends beyond about two hours, the wise endurance athlete will make sure that complex carbohydrate and protein intake are both adequate to delay and offset this cannibalization process.

What kind to use?

Which protein is best for use before, during, and after exercise has been a subject of much debate. We recommend a combination of both soy and whey protein, used at separate times, to provide the most comprehensive support for an endurance athlete's diet. We believe that whey protein is the premier protein for recovery and enhanced immune system function, while soy protein is ideal for fulfilling protein requirements prior to and during endurance exercise. That doesn't mean using soy protein for recovery purposes would be "wrong" or in any way harmful. For optimal benefits, though, you'll not find a better protein for recovery and immune system boosting than whey protein, in particular whey protein isolate. For exercisespecific benefits it's hard to top soy, which is the main reason we use it in both Sustained Energy and Perpetuem.

The benefits of soy protein

Because it has less potential than whey protein for producing ammonia, a primary cause of muscle fatigue, soy protein is best used prior to and during exercise. That alone would make soy the preferential choice for use during exercise, but soy has yet more benefits.

As mentioned in the Proper Caloric Intake During Endurance Exercise article, soy protein has a unique amino acid profile. This composition adds to its attractiveness as the ideal protein to use during endurance exercise. Although not as high in concentration as whey protein, soy protein still provides a substantial amount of branched chain amino acids (BCAAs), which your body readily converts for energy production. BCAAs and glutamic acid, another amino acid found in significant quantity in soy protein, also aid in the replenishing of glutamine within the body, and without the risk of ammonia production caused by orally ingested glutamine, an amino acid usually added to whey protein. Soy has high amounts of both alanine and histidine, which is part of the betaalanyl lhistidine dipeptide known as carnosine, renowned for its antioxidant and acid buffering benefits. Soy protein also has a high level of aspartic acid, which plays an important role in energy production via the Krebs cycle. Lastly, soy protein has higher levels of phenylalanine than does whey, which may aid in maintaining alertness during extreme ultra distance races.

In addition, for general health benefits it's hard to beat soy. Soy protein contains multitudes of healthenhancing phytochemicals. Scientific research has established many connections between soy consumption and lower rates of certain cancers, notably breast, prostate, stomach, lung, and colon. Comparing cancer rates for the U.S. with those of Asian countries (which have soy rich diets) shows some remarkable differences. For instance, Japan has onefourth the rate of breast cancer and onefifth the rate of prostate cancer. In China, medical researchers linked the consumption of soymilk to a 50% risk reduction for stomach cancer. Studies done in Hong Kong suggest that daily soy consumption was a primary factor in a 50% reduction in the incidence of lung cancer.

Soy Protein  Friend or Foe?

Even though the justmentioned benefits attributed to soy protein are generally accepted by the majority, there is an ongoing debate as to whether or not soy protein is truly beneficial. Some tout soy as being a superhealthy protein source, while others decry it as being responsible for a variety of undesirable effects. Perhaps the most highly debated topic is in regards to soy's naturally occurring phytoestrogens and whether or not they negatively affect hormone levels (particularly in males), causing an imbalance leading to increased estrogen levels. Dr. Bill Misner comments, noting that there are those who do not agree with his position:

Phytoestrogens from plant lignans or isoflavonoids from at least 15 plants behave within the body like weak estrogens. Phytoestrogens are so chemically similar to estrogen that they bind to the estrogen receptors on the cells within the body. It should be emphasized that they do not initiate the same biological effects that true estrogens exert.

Phytoestrogens paradoxically act as antiestrogens, effectively diluting the impact of the body's own production of estrogen, because they occupy the same receptor sites (estradiol receptor sites) that would otherwise be occupied by endogenous estrogen. Therefore plant phytoestrogens protect the body from the detrimental effects of excessive estrogen. The healthy foods and supplements that introduce phytoestrogens into the diet are Mexican wild yam, black cohosh, red clover, licorice, sage, unicorn root, soy, flax seeds, and even tiny sesame seeds. None of these foods are associated with behavioral change or hormonal modification.

Consuming GMOfree soy protein generates anabolic sequences desirable for the healthconscious male and female endurance athlete, especially the 40and over athletes. If allergenic, thyroid, or digestion issues are present, then another protein should be selected. Soy's phytoestrogen properties block the effects of potent endogenous estrogens, with no known gender effects to males or females as reported from the literature. The net result from soy protein consumption is anabolic lean muscle mass gain. While I regard soy as an excellent dietary protein, alternating soy with other lean dietary proteins during training presents a responsible and defendable rationale.

Each scoop of Hammer Soy provides 25 grams of the highest quality, 100% GMO (genetically modified organism)free soy protein, without any fillers, added sugar, or artificial sweeteners or flavoring. Hammer Soy's highly concentrated nature makes it a hungersatisfying addition anytime, helping you to easily fulfill your daily protein requirements. Add Hammer Soy to juices, smoothies, or other soybased drinks to make a satisfying and healthy meal. It's also a great addition when making pancake or muffin batter, adding high quality, allvegetable protein to the mixture.

The benefits of whey protein

For enhancing the recovery process, whey protein has no peer. As mentioned in the article, Recovery  A crucial component for athletic success, whey protein has the highest biological value (BV) of any protein source. BV rates the availability of the protein once ingested, and whey is arguably the most rapidly absorbed protein, exactly what you want postworkout. Whey protein's amino acid profile contains the highest percentage of essential amino acids, 25% of which are the BCAAs leucine, isoleucine, and valine, the most important for muscle tissue repair. Whey is also a rich source of two other important amino acids, methionine and cysteine, which stimulate the natural production of glutathione, one of the body's most powerful antioxidants and a major player in maintaining a strong immune system. Glutathione also supports healthy liver function.

Whey Protein vs. Soy Protein

A comparison (approximate amounts per gram of protein) of after exercisespecific amino acids

Whey Protein vs. Soy Protein

AMINO ACID

Whey Protein

Soy Protein

Leucine

100 mg

56 mg

Isoleucine

51 mg

35 mg

Valine

36 mg

16 mg

Methionine

17 mg

9 mg

Cysteine

33 mg

9 mg

Hammer Whey

Each scoop of Hammer Whey contains 18 grams of 100% microfiltered whey protein isolate, with no added fillers, sugar, or artificial sweeteners or flavoring. The key word here is isolate. Manufacturers supply two forms of whey, isolate and concentrate. Whey protein concentrate contains anywhere from 70% to 80% actual protein (and, sadly, sometimes even less), the remainder being fat and lactose. Isolate, on the other hand, contains 90%  97+% protein, with little, if any, lactose or fat, making it the purest form of whey protein available. Because isolate contains almost no lactose, even those with lactose intolerance find it an easily digestible protein source. We use only isolate in our wheycontaining products, Hammer Whey and Recoverite.

In addition, each scoop of Hammer Whey contains a whopping six grams of glutamine, a remarkable amino acid. Space limits all that could be written regarding the benefits of this extraordinary, multibeneficial amino acid, but needless to say, it's essential for endurance athletes in supporting enhanced recovery and immune system function. Glutamine is the most abundant amino acid in your muscles. Intense exercise severely depletes glutamine, which makes supplementation so important. Glutamine plays a significant role in the glycogen synthesis process, and along with the branched chain amino acids, glutamine helps repair and rebuild muscle tissue. In addition, glutamine has also been shown to help raise endogenous levels of glutathione, which is intimately involved in immune system health. Glutamine contributes to growth hormone release and is a key component for intestinal health. For more detailed and referenced information on this remarkable amino acid, please read Dr. Bill Misner's article, Glutamine Benefits, on the Hammer Nutrition web site.

How much do you need?

How much protein do endurance athletes need to consume? Numerous studies have demonstrated that endurance athletes in heavy training need more protein than recreational athletes do. Once it was believed that 1/2 gram of protein per pound (about .5 kilogram) of body weight75 grams for a 150lb (68 kg) personper day was sufficient. Todays standards, however, would increase that figure to about 100112 grams (2/3 to 3/4 grams of protein per pound of body weight).

To find out how much you require, multiply your weight in kilograms by 1.4 to 1.7, depending on your exercise intensity. This gives you the amount of protein (in grams) that you should consume on a daily basis. (To convert from pounds to kilograms, divide by 2.2). Thus, a 165pound (75 kg) athlete in high training mode should consume about 128 grams of protein daily.

Of course, we get protein in some amounts from a variety of foods. But how many of us down the equivalent of a quart of milk, a halfcan of tuna, two chicken breasts, and four slices of whole wheat bread every day? Track and record your diet and do some calculating. It takes quite a bit of effort to ensure adequate protein intake, especially for vegetarians and those who avoid dairy products. Remember to include protein intake from Sustained Energy, Perpetuem, and Recoverite in your calculations. If you still come up short, consider additional applications of Hammer Whey and/or Hammer Soy. If you're serious about your performance and also your health, then respect the importance of providing adequate protein in your diet.

HAMMER PROTEIN TIPS

Recovery/Meal Replacement Formulas

1 rounded scoop of Hammer Whey (equal to about 1.25 scoops) with 3 servings (approx. 5 tablespoons) of Hammer Gel in 810 ounces of water. This provides approximately 370 calories from approximately 22.5 grams of protein and approximately 69 grams of carbohydrates.

Summary

Although its not given the same kind of status as carbohydrates, there can be no doubt that obtaining adequate amounts of protein in the diet is crucial for endurance athletes. Use the information in this article to help you determine what kind of protein to use and how much, and start reaping the athletic performance and overall health benefits!